Provided is an apparatus for sensing and removing dew on a refrigerator. The apparatus may include a heater disposed at a refrigerator body or inside a surface of a door, and a sensor disposed in close proximity to the heater. The sensor may be configured to sense dew formed on a prescribed surface at the refrigerator body or the door. The sensor may be disposed physically separate from the prescribed surface to sense formation of dew on the prescribed surface. The heater is controlled to generate heat that removes the sensed dew on the prescribed surface based on a signal from the sensor.

A refrigerator is proposed. The refrigerator includes a manipulation part including a rotating shaft and a manipulation knob, an opening/closing part configured to have a curved surface and located at a position adjacent to the circumference of the rotating shaft such that the opening/closing part opens and closes a communication portion between an inlet part and an enlarged part of a flow guide, and an angle limiting part configured to limit the rotation angle of the manipulation knob, whereby the manipulation knob of a thermostat for temperature control of the freezer compartment is configured to have the operation angle of 120˜160°, thereby improving manipulation satisfaction during the manipulation of the manipulation knob by a user.

A refrigerator appliance is provided including a cabinet defining a chilled chamber and a climate control assembly for regulating a chamber temperature within the chilled chamber. A controller receives a command to perform a dough proofing cycle and a dough removal time, determines a temperature schedule to facilitate the dough proofing cycle, the temperature schedule ending at the dough removal time, and operates the climate control assembly to regulate a chamber temperature of the chilled chamber in accordance with the temperature schedule.

A refrigerator appliance is provided including a cabinet defining a chilled chamber and a climate control assembly for regulating a chamber temperature within the chilled chamber. A controller receives a command to perform a dough proofing cycle and a dough removal time, determines a temperature schedule to facilitate the dough proofing cycle, the temperature schedule ending at the dough removal time, and operates the climate control assembly to regulate a chamber temperature of the chilled chamber in accordance with the temperature schedule.

The present invention relates to a smart home controller refrigerator and a control method therefor, the smart home controller refrigerator, according to one embodiment of the present invention, comprising: a control unit comprising a control protocol communication unit for receiving control information for controlling a home appliance in a home, an operation protocol communication unit for generating an operation signal calculated from the control information, and a signal transmission unit for transmitting the operation signal to the home appliance; at least one storage space; and at least one door for controlling the opening/closing of the at least one storage space.

The present invention relates to a smart home controller refrigerator and a control method therefor, the smart home controller refrigerator, according to one embodiment of the present invention, comprising: a control unit comprising a control protocol communication unit for receiving control information for controlling a home appliance in a home, an operation protocol communication unit for generating an operation signal calculated from the control information, and a signal transmission unit for transmitting the operation signal to the home appliance; at least one storage space; and at least one door for controlling the opening/closing of the at least one storage space.

A transportable enclosure can include a housing, a power source, a container, an evaporator, a condenser, a compressor, and a controller. The container can be configured to receive a temperature sensitive item therein. The evaporator can be disposed at least partially around the container. The condenser can be positioned near a wall of the housing and can be configured to reject heat from the evaporator to an ambient environment through the wall of the housing.

A delivery apparatus and method for delivering liquid cryogen to a chilling application includes a liquid cryogen feed tank; a liquid cryogen conduit in fluid communication between the feed tank and the application, wherein the feed tank is in fluid communication with a vessel which is in fluid communication with the conduit between the feed tank and the application; a weight measurement device for controlling the weight of liquid cryogen to be delivered to the application through the conduit; a flow controller for controlling the speed of delivery of the liquid cryogen to the application; wherein the application utilizes the liquid cryogen and produces an exhaust gas; a device for measuring the temperature of the exhaust gas, the device in operative communication with the flow controller; wherein the flow controller is configured to vary the speed of delivery of liquid cryogen from the vessel through the conduit in response to the temperature of the exhaust gas.

A refrigerator appliance may include a cabinet, a door, a camera module, and a controller. The camera module may be mounted to the cabinet. The controller may be operably coupled to the camera module. The controller may be configured to initiate an operation routine. The operation routine may include initiating an image capture sequence at the camera module. The image capture sequence may include a two-dimensional image captured at the camera module. The operation routine may further include determining an appendage-occupied region within the two-dimensional image and analyzing the appendage-occupied region in response to determining the appendage-occupied region. The operation routine may still further include assigning a confidence score to a user profile stored in the controller based on analyzing the appendage-occupied region, comparing the assigned confidence score to a threshold score, and recording metadata regarding the two-dimensional image based on comparing the assigned confidence score.

A refrigerator appliance may include a cabinet, a door, a camera module, and a controller. The camera module may be mounted to the cabinet. The controller may be operably coupled to the camera module. The controller may be configured to initiate an operation routine. The operation routine may include initiating an image capture sequence at the camera module. The image capture sequence may include a two-dimensional image captured at the camera module. The operation routine may further include determining an appendage-occupied region within the two-dimensional image and analyzing the appendage-occupied region in response to determining the appendage-occupied region. The operation routine may still further include assigning a confidence score to a user profile stored in the controller based on analyzing the appendage-occupied region, comparing the assigned confidence score to a threshold score, and recording metadata regarding the two-dimensional image based on comparing the assigned confidence score.